mirror of
https://github.com/superseriousbusiness/gotosocial
synced 2024-12-25 20:23:10 +00:00
1261 lines
33 KiB
Go
1261 lines
33 KiB
Go
// Inferno utils/6l/pass.c
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// https://bitbucket.org/inferno-os/inferno-os/src/master/utils/6l/pass.c
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//
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// Copyright © 1994-1999 Lucent Technologies Inc. All rights reserved.
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// Portions Copyright © 1995-1997 C H Forsyth (forsyth@terzarima.net)
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// Portions Copyright © 1997-1999 Vita Nuova Limited
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// Portions Copyright © 2000-2007 Vita Nuova Holdings Limited (www.vitanuova.com)
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// Portions Copyright © 2004,2006 Bruce Ellis
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// Portions Copyright © 2005-2007 C H Forsyth (forsyth@terzarima.net)
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// Revisions Copyright © 2000-2007 Lucent Technologies Inc. and others
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// Portions Copyright © 2009 The Go Authors. All rights reserved.
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//
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// Permission is hereby granted, free of charge, to any person obtaining a copy
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// of this software and associated documentation files (the "Software"), to deal
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// in the Software without restriction, including without limitation the rights
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// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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// copies of the Software, and to permit persons to whom the Software is
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// furnished to do so, subject to the following conditions:
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//
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// The above copyright notice and this permission notice shall be included in
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// all copies or substantial portions of the Software.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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// THE SOFTWARE.
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package x86
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import (
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"github.com/twitchyliquid64/golang-asm/obj"
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"github.com/twitchyliquid64/golang-asm/objabi"
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"github.com/twitchyliquid64/golang-asm/src"
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"github.com/twitchyliquid64/golang-asm/sys"
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"math"
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"strings"
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)
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func CanUse1InsnTLS(ctxt *obj.Link) bool {
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if isAndroid {
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// Android uses a global variable for the tls offset.
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return false
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}
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if ctxt.Arch.Family == sys.I386 {
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switch ctxt.Headtype {
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case objabi.Hlinux,
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objabi.Hplan9,
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objabi.Hwindows:
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return false
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}
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return true
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}
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switch ctxt.Headtype {
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case objabi.Hplan9, objabi.Hwindows:
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return false
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case objabi.Hlinux, objabi.Hfreebsd:
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return !ctxt.Flag_shared
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}
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return true
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}
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func progedit(ctxt *obj.Link, p *obj.Prog, newprog obj.ProgAlloc) {
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// Thread-local storage references use the TLS pseudo-register.
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// As a register, TLS refers to the thread-local storage base, and it
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// can only be loaded into another register:
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//
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// MOVQ TLS, AX
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//
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// An offset from the thread-local storage base is written off(reg)(TLS*1).
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// Semantically it is off(reg), but the (TLS*1) annotation marks this as
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// indexing from the loaded TLS base. This emits a relocation so that
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// if the linker needs to adjust the offset, it can. For example:
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//
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// MOVQ TLS, AX
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// MOVQ 0(AX)(TLS*1), CX // load g into CX
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//
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// On systems that support direct access to the TLS memory, this
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// pair of instructions can be reduced to a direct TLS memory reference:
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//
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// MOVQ 0(TLS), CX // load g into CX
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//
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// The 2-instruction and 1-instruction forms correspond to the two code
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// sequences for loading a TLS variable in the local exec model given in "ELF
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// Handling For Thread-Local Storage".
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//
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// We apply this rewrite on systems that support the 1-instruction form.
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// The decision is made using only the operating system and the -shared flag,
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// not the link mode. If some link modes on a particular operating system
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// require the 2-instruction form, then all builds for that operating system
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// will use the 2-instruction form, so that the link mode decision can be
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// delayed to link time.
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//
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// In this way, all supported systems use identical instructions to
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// access TLS, and they are rewritten appropriately first here in
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// liblink and then finally using relocations in the linker.
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//
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// When -shared is passed, we leave the code in the 2-instruction form but
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// assemble (and relocate) them in different ways to generate the initial
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// exec code sequence. It's a bit of a fluke that this is possible without
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// rewriting the instructions more comprehensively, and it only does because
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// we only support a single TLS variable (g).
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if CanUse1InsnTLS(ctxt) {
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// Reduce 2-instruction sequence to 1-instruction sequence.
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// Sequences like
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// MOVQ TLS, BX
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// ... off(BX)(TLS*1) ...
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// become
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// NOP
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// ... off(TLS) ...
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//
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// TODO(rsc): Remove the Hsolaris special case. It exists only to
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// guarantee we are producing byte-identical binaries as before this code.
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// But it should be unnecessary.
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if (p.As == AMOVQ || p.As == AMOVL) && p.From.Type == obj.TYPE_REG && p.From.Reg == REG_TLS && p.To.Type == obj.TYPE_REG && REG_AX <= p.To.Reg && p.To.Reg <= REG_R15 && ctxt.Headtype != objabi.Hsolaris {
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obj.Nopout(p)
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}
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if p.From.Type == obj.TYPE_MEM && p.From.Index == REG_TLS && REG_AX <= p.From.Reg && p.From.Reg <= REG_R15 {
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p.From.Reg = REG_TLS
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p.From.Scale = 0
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p.From.Index = REG_NONE
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}
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if p.To.Type == obj.TYPE_MEM && p.To.Index == REG_TLS && REG_AX <= p.To.Reg && p.To.Reg <= REG_R15 {
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p.To.Reg = REG_TLS
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p.To.Scale = 0
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p.To.Index = REG_NONE
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}
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} else {
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// load_g_cx, below, always inserts the 1-instruction sequence. Rewrite it
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// as the 2-instruction sequence if necessary.
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// MOVQ 0(TLS), BX
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// becomes
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// MOVQ TLS, BX
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// MOVQ 0(BX)(TLS*1), BX
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if (p.As == AMOVQ || p.As == AMOVL) && p.From.Type == obj.TYPE_MEM && p.From.Reg == REG_TLS && p.To.Type == obj.TYPE_REG && REG_AX <= p.To.Reg && p.To.Reg <= REG_R15 {
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q := obj.Appendp(p, newprog)
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q.As = p.As
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q.From = p.From
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q.From.Type = obj.TYPE_MEM
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q.From.Reg = p.To.Reg
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q.From.Index = REG_TLS
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q.From.Scale = 2 // TODO: use 1
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q.To = p.To
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p.From.Type = obj.TYPE_REG
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p.From.Reg = REG_TLS
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p.From.Index = REG_NONE
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p.From.Offset = 0
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}
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}
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// Android uses a tls offset determined at runtime. Rewrite
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// MOVQ TLS, BX
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// to
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// MOVQ runtime.tls_g(SB), BX
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if isAndroid && (p.As == AMOVQ || p.As == AMOVL) && p.From.Type == obj.TYPE_REG && p.From.Reg == REG_TLS && p.To.Type == obj.TYPE_REG && REG_AX <= p.To.Reg && p.To.Reg <= REG_R15 {
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p.From.Type = obj.TYPE_MEM
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p.From.Name = obj.NAME_EXTERN
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p.From.Reg = REG_NONE
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p.From.Sym = ctxt.Lookup("runtime.tls_g")
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p.From.Index = REG_NONE
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}
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// TODO: Remove.
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if ctxt.Headtype == objabi.Hwindows && ctxt.Arch.Family == sys.AMD64 || ctxt.Headtype == objabi.Hplan9 {
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if p.From.Scale == 1 && p.From.Index == REG_TLS {
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p.From.Scale = 2
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}
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if p.To.Scale == 1 && p.To.Index == REG_TLS {
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p.To.Scale = 2
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}
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}
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// Rewrite 0 to $0 in 3rd argument to CMPPS etc.
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// That's what the tables expect.
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switch p.As {
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case ACMPPD, ACMPPS, ACMPSD, ACMPSS:
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if p.To.Type == obj.TYPE_MEM && p.To.Name == obj.NAME_NONE && p.To.Reg == REG_NONE && p.To.Index == REG_NONE && p.To.Sym == nil {
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p.To.Type = obj.TYPE_CONST
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}
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}
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// Rewrite CALL/JMP/RET to symbol as TYPE_BRANCH.
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switch p.As {
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case obj.ACALL, obj.AJMP, obj.ARET:
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if p.To.Type == obj.TYPE_MEM && (p.To.Name == obj.NAME_EXTERN || p.To.Name == obj.NAME_STATIC) && p.To.Sym != nil {
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p.To.Type = obj.TYPE_BRANCH
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}
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}
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// Rewrite MOVL/MOVQ $XXX(FP/SP) as LEAL/LEAQ.
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if p.From.Type == obj.TYPE_ADDR && (ctxt.Arch.Family == sys.AMD64 || p.From.Name != obj.NAME_EXTERN && p.From.Name != obj.NAME_STATIC) {
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switch p.As {
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case AMOVL:
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p.As = ALEAL
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p.From.Type = obj.TYPE_MEM
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case AMOVQ:
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p.As = ALEAQ
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p.From.Type = obj.TYPE_MEM
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}
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}
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// Rewrite float constants to values stored in memory.
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switch p.As {
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// Convert AMOVSS $(0), Xx to AXORPS Xx, Xx
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case AMOVSS:
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if p.From.Type == obj.TYPE_FCONST {
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// f == 0 can't be used here due to -0, so use Float64bits
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if f := p.From.Val.(float64); math.Float64bits(f) == 0 {
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if p.To.Type == obj.TYPE_REG && REG_X0 <= p.To.Reg && p.To.Reg <= REG_X15 {
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p.As = AXORPS
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p.From = p.To
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break
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}
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}
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}
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fallthrough
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case AFMOVF,
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AFADDF,
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AFSUBF,
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AFSUBRF,
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AFMULF,
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AFDIVF,
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AFDIVRF,
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AFCOMF,
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AFCOMFP,
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AADDSS,
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ASUBSS,
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AMULSS,
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ADIVSS,
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ACOMISS,
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AUCOMISS:
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if p.From.Type == obj.TYPE_FCONST {
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f32 := float32(p.From.Val.(float64))
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p.From.Type = obj.TYPE_MEM
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p.From.Name = obj.NAME_EXTERN
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p.From.Sym = ctxt.Float32Sym(f32)
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p.From.Offset = 0
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}
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case AMOVSD:
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// Convert AMOVSD $(0), Xx to AXORPS Xx, Xx
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if p.From.Type == obj.TYPE_FCONST {
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// f == 0 can't be used here due to -0, so use Float64bits
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if f := p.From.Val.(float64); math.Float64bits(f) == 0 {
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if p.To.Type == obj.TYPE_REG && REG_X0 <= p.To.Reg && p.To.Reg <= REG_X15 {
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p.As = AXORPS
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p.From = p.To
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break
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}
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}
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}
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fallthrough
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case AFMOVD,
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AFADDD,
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AFSUBD,
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AFSUBRD,
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AFMULD,
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AFDIVD,
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AFDIVRD,
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AFCOMD,
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AFCOMDP,
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AADDSD,
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ASUBSD,
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AMULSD,
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ADIVSD,
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ACOMISD,
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AUCOMISD:
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if p.From.Type == obj.TYPE_FCONST {
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f64 := p.From.Val.(float64)
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p.From.Type = obj.TYPE_MEM
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p.From.Name = obj.NAME_EXTERN
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p.From.Sym = ctxt.Float64Sym(f64)
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p.From.Offset = 0
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}
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}
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if ctxt.Flag_dynlink {
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rewriteToUseGot(ctxt, p, newprog)
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}
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if ctxt.Flag_shared && ctxt.Arch.Family == sys.I386 {
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rewriteToPcrel(ctxt, p, newprog)
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}
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}
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// Rewrite p, if necessary, to access global data via the global offset table.
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func rewriteToUseGot(ctxt *obj.Link, p *obj.Prog, newprog obj.ProgAlloc) {
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var lea, mov obj.As
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var reg int16
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if ctxt.Arch.Family == sys.AMD64 {
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lea = ALEAQ
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mov = AMOVQ
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reg = REG_R15
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} else {
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lea = ALEAL
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mov = AMOVL
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reg = REG_CX
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if p.As == ALEAL && p.To.Reg != p.From.Reg && p.To.Reg != p.From.Index {
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// Special case: clobber the destination register with
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// the PC so we don't have to clobber CX.
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// The SSA backend depends on CX not being clobbered across LEAL.
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// See cmd/compile/internal/ssa/gen/386.rules (search for Flag_shared).
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reg = p.To.Reg
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}
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}
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if p.As == obj.ADUFFCOPY || p.As == obj.ADUFFZERO {
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// ADUFFxxx $offset
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// becomes
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// $MOV runtime.duffxxx@GOT, $reg
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// $LEA $offset($reg), $reg
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// CALL $reg
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// (we use LEAx rather than ADDx because ADDx clobbers
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// flags and duffzero on 386 does not otherwise do so).
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var sym *obj.LSym
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if p.As == obj.ADUFFZERO {
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sym = ctxt.Lookup("runtime.duffzero")
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} else {
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sym = ctxt.Lookup("runtime.duffcopy")
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}
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offset := p.To.Offset
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p.As = mov
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p.From.Type = obj.TYPE_MEM
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p.From.Name = obj.NAME_GOTREF
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p.From.Sym = sym
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p.To.Type = obj.TYPE_REG
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p.To.Reg = reg
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p.To.Offset = 0
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p.To.Sym = nil
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p1 := obj.Appendp(p, newprog)
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p1.As = lea
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p1.From.Type = obj.TYPE_MEM
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p1.From.Offset = offset
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p1.From.Reg = reg
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p1.To.Type = obj.TYPE_REG
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p1.To.Reg = reg
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p2 := obj.Appendp(p1, newprog)
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p2.As = obj.ACALL
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p2.To.Type = obj.TYPE_REG
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p2.To.Reg = reg
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}
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// We only care about global data: NAME_EXTERN means a global
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// symbol in the Go sense, and p.Sym.Local is true for a few
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// internally defined symbols.
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if p.As == lea && p.From.Type == obj.TYPE_MEM && p.From.Name == obj.NAME_EXTERN && !p.From.Sym.Local() {
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// $LEA sym, Rx becomes $MOV $sym, Rx which will be rewritten below
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p.As = mov
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p.From.Type = obj.TYPE_ADDR
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}
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if p.From.Type == obj.TYPE_ADDR && p.From.Name == obj.NAME_EXTERN && !p.From.Sym.Local() {
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// $MOV $sym, Rx becomes $MOV sym@GOT, Rx
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// $MOV $sym+<off>, Rx becomes $MOV sym@GOT, Rx; $LEA <off>(Rx), Rx
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// On 386 only, more complicated things like PUSHL $sym become $MOV sym@GOT, CX; PUSHL CX
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cmplxdest := false
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pAs := p.As
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var dest obj.Addr
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if p.To.Type != obj.TYPE_REG || pAs != mov {
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if ctxt.Arch.Family == sys.AMD64 {
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ctxt.Diag("do not know how to handle LEA-type insn to non-register in %v with -dynlink", p)
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}
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cmplxdest = true
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dest = p.To
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p.As = mov
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p.To.Type = obj.TYPE_REG
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p.To.Reg = reg
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p.To.Sym = nil
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p.To.Name = obj.NAME_NONE
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}
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p.From.Type = obj.TYPE_MEM
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p.From.Name = obj.NAME_GOTREF
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q := p
|
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if p.From.Offset != 0 {
|
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q = obj.Appendp(p, newprog)
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q.As = lea
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q.From.Type = obj.TYPE_MEM
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q.From.Reg = p.To.Reg
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q.From.Offset = p.From.Offset
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q.To = p.To
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p.From.Offset = 0
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}
|
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if cmplxdest {
|
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q = obj.Appendp(q, newprog)
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q.As = pAs
|
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q.To = dest
|
|
q.From.Type = obj.TYPE_REG
|
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q.From.Reg = reg
|
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}
|
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}
|
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if p.GetFrom3() != nil && p.GetFrom3().Name == obj.NAME_EXTERN {
|
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ctxt.Diag("don't know how to handle %v with -dynlink", p)
|
|
}
|
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var source *obj.Addr
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// MOVx sym, Ry becomes $MOV sym@GOT, R15; MOVx (R15), Ry
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// MOVx Ry, sym becomes $MOV sym@GOT, R15; MOVx Ry, (R15)
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// An addition may be inserted between the two MOVs if there is an offset.
|
|
if p.From.Name == obj.NAME_EXTERN && !p.From.Sym.Local() {
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if p.To.Name == obj.NAME_EXTERN && !p.To.Sym.Local() {
|
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ctxt.Diag("cannot handle NAME_EXTERN on both sides in %v with -dynlink", p)
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}
|
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source = &p.From
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} else if p.To.Name == obj.NAME_EXTERN && !p.To.Sym.Local() {
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source = &p.To
|
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} else {
|
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return
|
|
}
|
|
if p.As == obj.ACALL {
|
|
// When dynlinking on 386, almost any call might end up being a call
|
|
// to a PLT, so make sure the GOT pointer is loaded into BX.
|
|
// RegTo2 is set on the replacement call insn to stop it being
|
|
// processed when it is in turn passed to progedit.
|
|
//
|
|
// We disable open-coded defers in buildssa() on 386 ONLY with shared
|
|
// libraries because of this extra code added before deferreturn calls.
|
|
if ctxt.Arch.Family == sys.AMD64 || (p.To.Sym != nil && p.To.Sym.Local()) || p.RegTo2 != 0 {
|
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return
|
|
}
|
|
p1 := obj.Appendp(p, newprog)
|
|
p2 := obj.Appendp(p1, newprog)
|
|
|
|
p1.As = ALEAL
|
|
p1.From.Type = obj.TYPE_MEM
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p1.From.Name = obj.NAME_STATIC
|
|
p1.From.Sym = ctxt.Lookup("_GLOBAL_OFFSET_TABLE_")
|
|
p1.To.Type = obj.TYPE_REG
|
|
p1.To.Reg = REG_BX
|
|
|
|
p2.As = p.As
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|
p2.Scond = p.Scond
|
|
p2.From = p.From
|
|
if p.RestArgs != nil {
|
|
p2.RestArgs = append(p2.RestArgs, p.RestArgs...)
|
|
}
|
|
p2.Reg = p.Reg
|
|
p2.To = p.To
|
|
// p.To.Type was set to TYPE_BRANCH above, but that makes checkaddr
|
|
// in ../pass.go complain, so set it back to TYPE_MEM here, until p2
|
|
// itself gets passed to progedit.
|
|
p2.To.Type = obj.TYPE_MEM
|
|
p2.RegTo2 = 1
|
|
|
|
obj.Nopout(p)
|
|
return
|
|
|
|
}
|
|
if p.As == obj.ATEXT || p.As == obj.AFUNCDATA || p.As == obj.ARET || p.As == obj.AJMP {
|
|
return
|
|
}
|
|
if source.Type != obj.TYPE_MEM {
|
|
ctxt.Diag("don't know how to handle %v with -dynlink", p)
|
|
}
|
|
p1 := obj.Appendp(p, newprog)
|
|
p2 := obj.Appendp(p1, newprog)
|
|
|
|
p1.As = mov
|
|
p1.From.Type = obj.TYPE_MEM
|
|
p1.From.Sym = source.Sym
|
|
p1.From.Name = obj.NAME_GOTREF
|
|
p1.To.Type = obj.TYPE_REG
|
|
p1.To.Reg = reg
|
|
|
|
p2.As = p.As
|
|
p2.From = p.From
|
|
p2.To = p.To
|
|
if p.From.Name == obj.NAME_EXTERN {
|
|
p2.From.Reg = reg
|
|
p2.From.Name = obj.NAME_NONE
|
|
p2.From.Sym = nil
|
|
} else if p.To.Name == obj.NAME_EXTERN {
|
|
p2.To.Reg = reg
|
|
p2.To.Name = obj.NAME_NONE
|
|
p2.To.Sym = nil
|
|
} else {
|
|
return
|
|
}
|
|
obj.Nopout(p)
|
|
}
|
|
|
|
func rewriteToPcrel(ctxt *obj.Link, p *obj.Prog, newprog obj.ProgAlloc) {
|
|
// RegTo2 is set on the instructions we insert here so they don't get
|
|
// processed twice.
|
|
if p.RegTo2 != 0 {
|
|
return
|
|
}
|
|
if p.As == obj.ATEXT || p.As == obj.AFUNCDATA || p.As == obj.ACALL || p.As == obj.ARET || p.As == obj.AJMP {
|
|
return
|
|
}
|
|
// Any Prog (aside from the above special cases) with an Addr with Name ==
|
|
// NAME_EXTERN, NAME_STATIC or NAME_GOTREF has a CALL __x86.get_pc_thunk.XX
|
|
// inserted before it.
|
|
isName := func(a *obj.Addr) bool {
|
|
if a.Sym == nil || (a.Type != obj.TYPE_MEM && a.Type != obj.TYPE_ADDR) || a.Reg != 0 {
|
|
return false
|
|
}
|
|
if a.Sym.Type == objabi.STLSBSS {
|
|
return false
|
|
}
|
|
return a.Name == obj.NAME_EXTERN || a.Name == obj.NAME_STATIC || a.Name == obj.NAME_GOTREF
|
|
}
|
|
|
|
if isName(&p.From) && p.From.Type == obj.TYPE_ADDR {
|
|
// Handle things like "MOVL $sym, (SP)" or "PUSHL $sym" by rewriting
|
|
// to "MOVL $sym, CX; MOVL CX, (SP)" or "MOVL $sym, CX; PUSHL CX"
|
|
// respectively.
|
|
if p.To.Type != obj.TYPE_REG {
|
|
q := obj.Appendp(p, newprog)
|
|
q.As = p.As
|
|
q.From.Type = obj.TYPE_REG
|
|
q.From.Reg = REG_CX
|
|
q.To = p.To
|
|
p.As = AMOVL
|
|
p.To.Type = obj.TYPE_REG
|
|
p.To.Reg = REG_CX
|
|
p.To.Sym = nil
|
|
p.To.Name = obj.NAME_NONE
|
|
}
|
|
}
|
|
|
|
if !isName(&p.From) && !isName(&p.To) && (p.GetFrom3() == nil || !isName(p.GetFrom3())) {
|
|
return
|
|
}
|
|
var dst int16 = REG_CX
|
|
if (p.As == ALEAL || p.As == AMOVL) && p.To.Reg != p.From.Reg && p.To.Reg != p.From.Index {
|
|
dst = p.To.Reg
|
|
// Why? See the comment near the top of rewriteToUseGot above.
|
|
// AMOVLs might be introduced by the GOT rewrites.
|
|
}
|
|
q := obj.Appendp(p, newprog)
|
|
q.RegTo2 = 1
|
|
r := obj.Appendp(q, newprog)
|
|
r.RegTo2 = 1
|
|
q.As = obj.ACALL
|
|
thunkname := "__x86.get_pc_thunk." + strings.ToLower(rconv(int(dst)))
|
|
q.To.Sym = ctxt.LookupInit(thunkname, func(s *obj.LSym) { s.Set(obj.AttrLocal, true) })
|
|
q.To.Type = obj.TYPE_MEM
|
|
q.To.Name = obj.NAME_EXTERN
|
|
r.As = p.As
|
|
r.Scond = p.Scond
|
|
r.From = p.From
|
|
r.RestArgs = p.RestArgs
|
|
r.Reg = p.Reg
|
|
r.To = p.To
|
|
if isName(&p.From) {
|
|
r.From.Reg = dst
|
|
}
|
|
if isName(&p.To) {
|
|
r.To.Reg = dst
|
|
}
|
|
if p.GetFrom3() != nil && isName(p.GetFrom3()) {
|
|
r.GetFrom3().Reg = dst
|
|
}
|
|
obj.Nopout(p)
|
|
}
|
|
|
|
func preprocess(ctxt *obj.Link, cursym *obj.LSym, newprog obj.ProgAlloc) {
|
|
if cursym.Func.Text == nil || cursym.Func.Text.Link == nil {
|
|
return
|
|
}
|
|
|
|
p := cursym.Func.Text
|
|
autoffset := int32(p.To.Offset)
|
|
if autoffset < 0 {
|
|
autoffset = 0
|
|
}
|
|
|
|
hasCall := false
|
|
for q := p; q != nil; q = q.Link {
|
|
if q.As == obj.ACALL || q.As == obj.ADUFFCOPY || q.As == obj.ADUFFZERO {
|
|
hasCall = true
|
|
break
|
|
}
|
|
}
|
|
|
|
var bpsize int
|
|
if ctxt.Arch.Family == sys.AMD64 &&
|
|
!p.From.Sym.NoFrame() && // (1) below
|
|
!(autoffset == 0 && p.From.Sym.NoSplit()) && // (2) below
|
|
!(autoffset == 0 && !hasCall) { // (3) below
|
|
// Make room to save a base pointer.
|
|
// There are 2 cases we must avoid:
|
|
// 1) If noframe is set (which we do for functions which tail call).
|
|
// 2) Scary runtime internals which would be all messed up by frame pointers.
|
|
// We detect these using a heuristic: frameless nosplit functions.
|
|
// TODO: Maybe someday we label them all with NOFRAME and get rid of this heuristic.
|
|
// For performance, we also want to avoid:
|
|
// 3) Frameless leaf functions
|
|
bpsize = ctxt.Arch.PtrSize
|
|
autoffset += int32(bpsize)
|
|
p.To.Offset += int64(bpsize)
|
|
} else {
|
|
bpsize = 0
|
|
}
|
|
|
|
textarg := int64(p.To.Val.(int32))
|
|
cursym.Func.Args = int32(textarg)
|
|
cursym.Func.Locals = int32(p.To.Offset)
|
|
|
|
// TODO(rsc): Remove.
|
|
if ctxt.Arch.Family == sys.I386 && cursym.Func.Locals < 0 {
|
|
cursym.Func.Locals = 0
|
|
}
|
|
|
|
// TODO(rsc): Remove 'ctxt.Arch.Family == sys.AMD64 &&'.
|
|
if ctxt.Arch.Family == sys.AMD64 && autoffset < objabi.StackSmall && !p.From.Sym.NoSplit() {
|
|
leaf := true
|
|
LeafSearch:
|
|
for q := p; q != nil; q = q.Link {
|
|
switch q.As {
|
|
case obj.ACALL:
|
|
// Treat common runtime calls that take no arguments
|
|
// the same as duffcopy and duffzero.
|
|
if !isZeroArgRuntimeCall(q.To.Sym) {
|
|
leaf = false
|
|
break LeafSearch
|
|
}
|
|
fallthrough
|
|
case obj.ADUFFCOPY, obj.ADUFFZERO:
|
|
if autoffset >= objabi.StackSmall-8 {
|
|
leaf = false
|
|
break LeafSearch
|
|
}
|
|
}
|
|
}
|
|
|
|
if leaf {
|
|
p.From.Sym.Set(obj.AttrNoSplit, true)
|
|
}
|
|
}
|
|
|
|
if !p.From.Sym.NoSplit() || p.From.Sym.Wrapper() {
|
|
p = obj.Appendp(p, newprog)
|
|
p = load_g_cx(ctxt, p, newprog) // load g into CX
|
|
}
|
|
|
|
if !cursym.Func.Text.From.Sym.NoSplit() {
|
|
p = stacksplit(ctxt, cursym, p, newprog, autoffset, int32(textarg)) // emit split check
|
|
}
|
|
|
|
// Delve debugger would like the next instruction to be noted as the end of the function prologue.
|
|
// TODO: are there other cases (e.g., wrapper functions) that need marking?
|
|
markedPrologue := false
|
|
|
|
if autoffset != 0 {
|
|
if autoffset%int32(ctxt.Arch.RegSize) != 0 {
|
|
ctxt.Diag("unaligned stack size %d", autoffset)
|
|
}
|
|
p = obj.Appendp(p, newprog)
|
|
p.As = AADJSP
|
|
p.From.Type = obj.TYPE_CONST
|
|
p.From.Offset = int64(autoffset)
|
|
p.Spadj = autoffset
|
|
p.Pos = p.Pos.WithXlogue(src.PosPrologueEnd)
|
|
markedPrologue = true
|
|
}
|
|
|
|
if bpsize > 0 {
|
|
// Save caller's BP
|
|
p = obj.Appendp(p, newprog)
|
|
|
|
p.As = AMOVQ
|
|
p.From.Type = obj.TYPE_REG
|
|
p.From.Reg = REG_BP
|
|
p.To.Type = obj.TYPE_MEM
|
|
p.To.Reg = REG_SP
|
|
p.To.Scale = 1
|
|
p.To.Offset = int64(autoffset) - int64(bpsize)
|
|
if !markedPrologue {
|
|
p.Pos = p.Pos.WithXlogue(src.PosPrologueEnd)
|
|
}
|
|
|
|
// Move current frame to BP
|
|
p = obj.Appendp(p, newprog)
|
|
|
|
p.As = ALEAQ
|
|
p.From.Type = obj.TYPE_MEM
|
|
p.From.Reg = REG_SP
|
|
p.From.Scale = 1
|
|
p.From.Offset = int64(autoffset) - int64(bpsize)
|
|
p.To.Type = obj.TYPE_REG
|
|
p.To.Reg = REG_BP
|
|
}
|
|
|
|
if cursym.Func.Text.From.Sym.Wrapper() {
|
|
// if g._panic != nil && g._panic.argp == FP {
|
|
// g._panic.argp = bottom-of-frame
|
|
// }
|
|
//
|
|
// MOVQ g_panic(CX), BX
|
|
// TESTQ BX, BX
|
|
// JNE checkargp
|
|
// end:
|
|
// NOP
|
|
// ... rest of function ...
|
|
// checkargp:
|
|
// LEAQ (autoffset+8)(SP), DI
|
|
// CMPQ panic_argp(BX), DI
|
|
// JNE end
|
|
// MOVQ SP, panic_argp(BX)
|
|
// JMP end
|
|
//
|
|
// The NOP is needed to give the jumps somewhere to land.
|
|
// It is a liblink NOP, not an x86 NOP: it encodes to 0 instruction bytes.
|
|
//
|
|
// The layout is chosen to help static branch prediction:
|
|
// Both conditional jumps are unlikely, so they are arranged to be forward jumps.
|
|
|
|
// MOVQ g_panic(CX), BX
|
|
p = obj.Appendp(p, newprog)
|
|
p.As = AMOVQ
|
|
p.From.Type = obj.TYPE_MEM
|
|
p.From.Reg = REG_CX
|
|
p.From.Offset = 4 * int64(ctxt.Arch.PtrSize) // g_panic
|
|
p.To.Type = obj.TYPE_REG
|
|
p.To.Reg = REG_BX
|
|
if ctxt.Arch.Family == sys.I386 {
|
|
p.As = AMOVL
|
|
}
|
|
|
|
// TESTQ BX, BX
|
|
p = obj.Appendp(p, newprog)
|
|
p.As = ATESTQ
|
|
p.From.Type = obj.TYPE_REG
|
|
p.From.Reg = REG_BX
|
|
p.To.Type = obj.TYPE_REG
|
|
p.To.Reg = REG_BX
|
|
if ctxt.Arch.Family == sys.I386 {
|
|
p.As = ATESTL
|
|
}
|
|
|
|
// JNE checkargp (checkargp to be resolved later)
|
|
jne := obj.Appendp(p, newprog)
|
|
jne.As = AJNE
|
|
jne.To.Type = obj.TYPE_BRANCH
|
|
|
|
// end:
|
|
// NOP
|
|
end := obj.Appendp(jne, newprog)
|
|
end.As = obj.ANOP
|
|
|
|
// Fast forward to end of function.
|
|
var last *obj.Prog
|
|
for last = end; last.Link != nil; last = last.Link {
|
|
}
|
|
|
|
// LEAQ (autoffset+8)(SP), DI
|
|
p = obj.Appendp(last, newprog)
|
|
p.As = ALEAQ
|
|
p.From.Type = obj.TYPE_MEM
|
|
p.From.Reg = REG_SP
|
|
p.From.Offset = int64(autoffset) + int64(ctxt.Arch.RegSize)
|
|
p.To.Type = obj.TYPE_REG
|
|
p.To.Reg = REG_DI
|
|
if ctxt.Arch.Family == sys.I386 {
|
|
p.As = ALEAL
|
|
}
|
|
|
|
// Set jne branch target.
|
|
jne.To.SetTarget(p)
|
|
|
|
// CMPQ panic_argp(BX), DI
|
|
p = obj.Appendp(p, newprog)
|
|
p.As = ACMPQ
|
|
p.From.Type = obj.TYPE_MEM
|
|
p.From.Reg = REG_BX
|
|
p.From.Offset = 0 // Panic.argp
|
|
p.To.Type = obj.TYPE_REG
|
|
p.To.Reg = REG_DI
|
|
if ctxt.Arch.Family == sys.I386 {
|
|
p.As = ACMPL
|
|
}
|
|
|
|
// JNE end
|
|
p = obj.Appendp(p, newprog)
|
|
p.As = AJNE
|
|
p.To.Type = obj.TYPE_BRANCH
|
|
p.To.SetTarget(end)
|
|
|
|
// MOVQ SP, panic_argp(BX)
|
|
p = obj.Appendp(p, newprog)
|
|
p.As = AMOVQ
|
|
p.From.Type = obj.TYPE_REG
|
|
p.From.Reg = REG_SP
|
|
p.To.Type = obj.TYPE_MEM
|
|
p.To.Reg = REG_BX
|
|
p.To.Offset = 0 // Panic.argp
|
|
if ctxt.Arch.Family == sys.I386 {
|
|
p.As = AMOVL
|
|
}
|
|
|
|
// JMP end
|
|
p = obj.Appendp(p, newprog)
|
|
p.As = obj.AJMP
|
|
p.To.Type = obj.TYPE_BRANCH
|
|
p.To.SetTarget(end)
|
|
|
|
// Reset p for following code.
|
|
p = end
|
|
}
|
|
|
|
var deltasp int32
|
|
for p = cursym.Func.Text; p != nil; p = p.Link {
|
|
pcsize := ctxt.Arch.RegSize
|
|
switch p.From.Name {
|
|
case obj.NAME_AUTO:
|
|
p.From.Offset += int64(deltasp) - int64(bpsize)
|
|
case obj.NAME_PARAM:
|
|
p.From.Offset += int64(deltasp) + int64(pcsize)
|
|
}
|
|
if p.GetFrom3() != nil {
|
|
switch p.GetFrom3().Name {
|
|
case obj.NAME_AUTO:
|
|
p.GetFrom3().Offset += int64(deltasp) - int64(bpsize)
|
|
case obj.NAME_PARAM:
|
|
p.GetFrom3().Offset += int64(deltasp) + int64(pcsize)
|
|
}
|
|
}
|
|
switch p.To.Name {
|
|
case obj.NAME_AUTO:
|
|
p.To.Offset += int64(deltasp) - int64(bpsize)
|
|
case obj.NAME_PARAM:
|
|
p.To.Offset += int64(deltasp) + int64(pcsize)
|
|
}
|
|
|
|
switch p.As {
|
|
default:
|
|
continue
|
|
|
|
case APUSHL, APUSHFL:
|
|
deltasp += 4
|
|
p.Spadj = 4
|
|
continue
|
|
|
|
case APUSHQ, APUSHFQ:
|
|
deltasp += 8
|
|
p.Spadj = 8
|
|
continue
|
|
|
|
case APUSHW, APUSHFW:
|
|
deltasp += 2
|
|
p.Spadj = 2
|
|
continue
|
|
|
|
case APOPL, APOPFL:
|
|
deltasp -= 4
|
|
p.Spadj = -4
|
|
continue
|
|
|
|
case APOPQ, APOPFQ:
|
|
deltasp -= 8
|
|
p.Spadj = -8
|
|
continue
|
|
|
|
case APOPW, APOPFW:
|
|
deltasp -= 2
|
|
p.Spadj = -2
|
|
continue
|
|
|
|
case AADJSP:
|
|
p.Spadj = int32(p.From.Offset)
|
|
deltasp += int32(p.From.Offset)
|
|
continue
|
|
|
|
case obj.ARET:
|
|
// do nothing
|
|
}
|
|
|
|
if autoffset != deltasp {
|
|
ctxt.Diag("unbalanced PUSH/POP")
|
|
}
|
|
|
|
if autoffset != 0 {
|
|
to := p.To // Keep To attached to RET for retjmp below
|
|
p.To = obj.Addr{}
|
|
if bpsize > 0 {
|
|
// Restore caller's BP
|
|
p.As = AMOVQ
|
|
|
|
p.From.Type = obj.TYPE_MEM
|
|
p.From.Reg = REG_SP
|
|
p.From.Scale = 1
|
|
p.From.Offset = int64(autoffset) - int64(bpsize)
|
|
p.To.Type = obj.TYPE_REG
|
|
p.To.Reg = REG_BP
|
|
p = obj.Appendp(p, newprog)
|
|
}
|
|
|
|
p.As = AADJSP
|
|
p.From.Type = obj.TYPE_CONST
|
|
p.From.Offset = int64(-autoffset)
|
|
p.Spadj = -autoffset
|
|
p = obj.Appendp(p, newprog)
|
|
p.As = obj.ARET
|
|
p.To = to
|
|
|
|
// If there are instructions following
|
|
// this ARET, they come from a branch
|
|
// with the same stackframe, so undo
|
|
// the cleanup.
|
|
p.Spadj = +autoffset
|
|
}
|
|
|
|
if p.To.Sym != nil { // retjmp
|
|
p.As = obj.AJMP
|
|
}
|
|
}
|
|
}
|
|
|
|
func isZeroArgRuntimeCall(s *obj.LSym) bool {
|
|
if s == nil {
|
|
return false
|
|
}
|
|
switch s.Name {
|
|
case "runtime.panicdivide", "runtime.panicwrap", "runtime.panicshift":
|
|
return true
|
|
}
|
|
if strings.HasPrefix(s.Name, "runtime.panicIndex") || strings.HasPrefix(s.Name, "runtime.panicSlice") {
|
|
// These functions do take arguments (in registers),
|
|
// but use no stack before they do a stack check. We
|
|
// should include them. See issue 31219.
|
|
return true
|
|
}
|
|
return false
|
|
}
|
|
|
|
func indir_cx(ctxt *obj.Link, a *obj.Addr) {
|
|
a.Type = obj.TYPE_MEM
|
|
a.Reg = REG_CX
|
|
}
|
|
|
|
// Append code to p to load g into cx.
|
|
// Overwrites p with the first instruction (no first appendp).
|
|
// Overwriting p is unusual but it lets use this in both the
|
|
// prologue (caller must call appendp first) and in the epilogue.
|
|
// Returns last new instruction.
|
|
func load_g_cx(ctxt *obj.Link, p *obj.Prog, newprog obj.ProgAlloc) *obj.Prog {
|
|
p.As = AMOVQ
|
|
if ctxt.Arch.PtrSize == 4 {
|
|
p.As = AMOVL
|
|
}
|
|
p.From.Type = obj.TYPE_MEM
|
|
p.From.Reg = REG_TLS
|
|
p.From.Offset = 0
|
|
p.To.Type = obj.TYPE_REG
|
|
p.To.Reg = REG_CX
|
|
|
|
next := p.Link
|
|
progedit(ctxt, p, newprog)
|
|
for p.Link != next {
|
|
p = p.Link
|
|
progedit(ctxt, p, newprog)
|
|
}
|
|
|
|
if p.From.Index == REG_TLS {
|
|
p.From.Scale = 2
|
|
}
|
|
|
|
return p
|
|
}
|
|
|
|
// Append code to p to check for stack split.
|
|
// Appends to (does not overwrite) p.
|
|
// Assumes g is in CX.
|
|
// Returns last new instruction.
|
|
func stacksplit(ctxt *obj.Link, cursym *obj.LSym, p *obj.Prog, newprog obj.ProgAlloc, framesize int32, textarg int32) *obj.Prog {
|
|
cmp := ACMPQ
|
|
lea := ALEAQ
|
|
mov := AMOVQ
|
|
sub := ASUBQ
|
|
|
|
if ctxt.Arch.Family == sys.I386 {
|
|
cmp = ACMPL
|
|
lea = ALEAL
|
|
mov = AMOVL
|
|
sub = ASUBL
|
|
}
|
|
|
|
var q1 *obj.Prog
|
|
if framesize <= objabi.StackSmall {
|
|
// small stack: SP <= stackguard
|
|
// CMPQ SP, stackguard
|
|
p = obj.Appendp(p, newprog)
|
|
|
|
p.As = cmp
|
|
p.From.Type = obj.TYPE_REG
|
|
p.From.Reg = REG_SP
|
|
indir_cx(ctxt, &p.To)
|
|
p.To.Offset = 2 * int64(ctxt.Arch.PtrSize) // G.stackguard0
|
|
if cursym.CFunc() {
|
|
p.To.Offset = 3 * int64(ctxt.Arch.PtrSize) // G.stackguard1
|
|
}
|
|
|
|
// Mark the stack bound check and morestack call async nonpreemptible.
|
|
// If we get preempted here, when resumed the preemption request is
|
|
// cleared, but we'll still call morestack, which will double the stack
|
|
// unnecessarily. See issue #35470.
|
|
p = ctxt.StartUnsafePoint(p, newprog)
|
|
} else if framesize <= objabi.StackBig {
|
|
// large stack: SP-framesize <= stackguard-StackSmall
|
|
// LEAQ -xxx(SP), AX
|
|
// CMPQ AX, stackguard
|
|
p = obj.Appendp(p, newprog)
|
|
|
|
p.As = lea
|
|
p.From.Type = obj.TYPE_MEM
|
|
p.From.Reg = REG_SP
|
|
p.From.Offset = -(int64(framesize) - objabi.StackSmall)
|
|
p.To.Type = obj.TYPE_REG
|
|
p.To.Reg = REG_AX
|
|
|
|
p = obj.Appendp(p, newprog)
|
|
p.As = cmp
|
|
p.From.Type = obj.TYPE_REG
|
|
p.From.Reg = REG_AX
|
|
indir_cx(ctxt, &p.To)
|
|
p.To.Offset = 2 * int64(ctxt.Arch.PtrSize) // G.stackguard0
|
|
if cursym.CFunc() {
|
|
p.To.Offset = 3 * int64(ctxt.Arch.PtrSize) // G.stackguard1
|
|
}
|
|
|
|
p = ctxt.StartUnsafePoint(p, newprog) // see the comment above
|
|
} else {
|
|
// Such a large stack we need to protect against wraparound.
|
|
// If SP is close to zero:
|
|
// SP-stackguard+StackGuard <= framesize + (StackGuard-StackSmall)
|
|
// The +StackGuard on both sides is required to keep the left side positive:
|
|
// SP is allowed to be slightly below stackguard. See stack.h.
|
|
//
|
|
// Preemption sets stackguard to StackPreempt, a very large value.
|
|
// That breaks the math above, so we have to check for that explicitly.
|
|
// MOVQ stackguard, SI
|
|
// CMPQ SI, $StackPreempt
|
|
// JEQ label-of-call-to-morestack
|
|
// LEAQ StackGuard(SP), AX
|
|
// SUBQ SI, AX
|
|
// CMPQ AX, $(framesize+(StackGuard-StackSmall))
|
|
|
|
p = obj.Appendp(p, newprog)
|
|
|
|
p.As = mov
|
|
indir_cx(ctxt, &p.From)
|
|
p.From.Offset = 2 * int64(ctxt.Arch.PtrSize) // G.stackguard0
|
|
if cursym.CFunc() {
|
|
p.From.Offset = 3 * int64(ctxt.Arch.PtrSize) // G.stackguard1
|
|
}
|
|
p.To.Type = obj.TYPE_REG
|
|
p.To.Reg = REG_SI
|
|
|
|
p = ctxt.StartUnsafePoint(p, newprog) // see the comment above
|
|
|
|
p = obj.Appendp(p, newprog)
|
|
p.As = cmp
|
|
p.From.Type = obj.TYPE_REG
|
|
p.From.Reg = REG_SI
|
|
p.To.Type = obj.TYPE_CONST
|
|
p.To.Offset = objabi.StackPreempt
|
|
if ctxt.Arch.Family == sys.I386 {
|
|
p.To.Offset = int64(uint32(objabi.StackPreempt & (1<<32 - 1)))
|
|
}
|
|
|
|
p = obj.Appendp(p, newprog)
|
|
p.As = AJEQ
|
|
p.To.Type = obj.TYPE_BRANCH
|
|
q1 = p
|
|
|
|
p = obj.Appendp(p, newprog)
|
|
p.As = lea
|
|
p.From.Type = obj.TYPE_MEM
|
|
p.From.Reg = REG_SP
|
|
p.From.Offset = int64(objabi.StackGuard)
|
|
p.To.Type = obj.TYPE_REG
|
|
p.To.Reg = REG_AX
|
|
|
|
p = obj.Appendp(p, newprog)
|
|
p.As = sub
|
|
p.From.Type = obj.TYPE_REG
|
|
p.From.Reg = REG_SI
|
|
p.To.Type = obj.TYPE_REG
|
|
p.To.Reg = REG_AX
|
|
|
|
p = obj.Appendp(p, newprog)
|
|
p.As = cmp
|
|
p.From.Type = obj.TYPE_REG
|
|
p.From.Reg = REG_AX
|
|
p.To.Type = obj.TYPE_CONST
|
|
p.To.Offset = int64(framesize) + (int64(objabi.StackGuard) - objabi.StackSmall)
|
|
}
|
|
|
|
// common
|
|
jls := obj.Appendp(p, newprog)
|
|
jls.As = AJLS
|
|
jls.To.Type = obj.TYPE_BRANCH
|
|
|
|
end := ctxt.EndUnsafePoint(jls, newprog, -1)
|
|
|
|
var last *obj.Prog
|
|
for last = cursym.Func.Text; last.Link != nil; last = last.Link {
|
|
}
|
|
|
|
// Now we are at the end of the function, but logically
|
|
// we are still in function prologue. We need to fix the
|
|
// SP data and PCDATA.
|
|
spfix := obj.Appendp(last, newprog)
|
|
spfix.As = obj.ANOP
|
|
spfix.Spadj = -framesize
|
|
|
|
pcdata := ctxt.EmitEntryStackMap(cursym, spfix, newprog)
|
|
pcdata = ctxt.StartUnsafePoint(pcdata, newprog)
|
|
|
|
call := obj.Appendp(pcdata, newprog)
|
|
call.Pos = cursym.Func.Text.Pos
|
|
call.As = obj.ACALL
|
|
call.To.Type = obj.TYPE_BRANCH
|
|
call.To.Name = obj.NAME_EXTERN
|
|
morestack := "runtime.morestack"
|
|
switch {
|
|
case cursym.CFunc():
|
|
morestack = "runtime.morestackc"
|
|
case !cursym.Func.Text.From.Sym.NeedCtxt():
|
|
morestack = "runtime.morestack_noctxt"
|
|
}
|
|
call.To.Sym = ctxt.Lookup(morestack)
|
|
// When compiling 386 code for dynamic linking, the call needs to be adjusted
|
|
// to follow PIC rules. This in turn can insert more instructions, so we need
|
|
// to keep track of the start of the call (where the jump will be to) and the
|
|
// end (which following instructions are appended to).
|
|
callend := call
|
|
progedit(ctxt, callend, newprog)
|
|
for ; callend.Link != nil; callend = callend.Link {
|
|
progedit(ctxt, callend.Link, newprog)
|
|
}
|
|
|
|
pcdata = ctxt.EndUnsafePoint(callend, newprog, -1)
|
|
|
|
jmp := obj.Appendp(pcdata, newprog)
|
|
jmp.As = obj.AJMP
|
|
jmp.To.Type = obj.TYPE_BRANCH
|
|
jmp.To.SetTarget(cursym.Func.Text.Link)
|
|
jmp.Spadj = +framesize
|
|
|
|
jls.To.SetTarget(call)
|
|
if q1 != nil {
|
|
q1.To.SetTarget(call)
|
|
}
|
|
|
|
return end
|
|
}
|
|
|
|
var unaryDst = map[obj.As]bool{
|
|
ABSWAPL: true,
|
|
ABSWAPQ: true,
|
|
ACLDEMOTE: true,
|
|
ACLFLUSH: true,
|
|
ACLFLUSHOPT: true,
|
|
ACLWB: true,
|
|
ACMPXCHG16B: true,
|
|
ACMPXCHG8B: true,
|
|
ADECB: true,
|
|
ADECL: true,
|
|
ADECQ: true,
|
|
ADECW: true,
|
|
AFBSTP: true,
|
|
AFFREE: true,
|
|
AFLDENV: true,
|
|
AFSAVE: true,
|
|
AFSTCW: true,
|
|
AFSTENV: true,
|
|
AFSTSW: true,
|
|
AFXSAVE64: true,
|
|
AFXSAVE: true,
|
|
AINCB: true,
|
|
AINCL: true,
|
|
AINCQ: true,
|
|
AINCW: true,
|
|
ANEGB: true,
|
|
ANEGL: true,
|
|
ANEGQ: true,
|
|
ANEGW: true,
|
|
ANOTB: true,
|
|
ANOTL: true,
|
|
ANOTQ: true,
|
|
ANOTW: true,
|
|
APOPL: true,
|
|
APOPQ: true,
|
|
APOPW: true,
|
|
ARDFSBASEL: true,
|
|
ARDFSBASEQ: true,
|
|
ARDGSBASEL: true,
|
|
ARDGSBASEQ: true,
|
|
ARDRANDL: true,
|
|
ARDRANDQ: true,
|
|
ARDRANDW: true,
|
|
ARDSEEDL: true,
|
|
ARDSEEDQ: true,
|
|
ARDSEEDW: true,
|
|
ASETCC: true,
|
|
ASETCS: true,
|
|
ASETEQ: true,
|
|
ASETGE: true,
|
|
ASETGT: true,
|
|
ASETHI: true,
|
|
ASETLE: true,
|
|
ASETLS: true,
|
|
ASETLT: true,
|
|
ASETMI: true,
|
|
ASETNE: true,
|
|
ASETOC: true,
|
|
ASETOS: true,
|
|
ASETPC: true,
|
|
ASETPL: true,
|
|
ASETPS: true,
|
|
ASGDT: true,
|
|
ASIDT: true,
|
|
ASLDTL: true,
|
|
ASLDTQ: true,
|
|
ASLDTW: true,
|
|
ASMSWL: true,
|
|
ASMSWQ: true,
|
|
ASMSWW: true,
|
|
ASTMXCSR: true,
|
|
ASTRL: true,
|
|
ASTRQ: true,
|
|
ASTRW: true,
|
|
AXSAVE64: true,
|
|
AXSAVE: true,
|
|
AXSAVEC64: true,
|
|
AXSAVEC: true,
|
|
AXSAVEOPT64: true,
|
|
AXSAVEOPT: true,
|
|
AXSAVES64: true,
|
|
AXSAVES: true,
|
|
}
|
|
|
|
var Linkamd64 = obj.LinkArch{
|
|
Arch: sys.ArchAMD64,
|
|
Init: instinit,
|
|
Preprocess: preprocess,
|
|
Assemble: span6,
|
|
Progedit: progedit,
|
|
UnaryDst: unaryDst,
|
|
DWARFRegisters: AMD64DWARFRegisters,
|
|
}
|
|
|
|
var Link386 = obj.LinkArch{
|
|
Arch: sys.Arch386,
|
|
Init: instinit,
|
|
Preprocess: preprocess,
|
|
Assemble: span6,
|
|
Progedit: progedit,
|
|
UnaryDst: unaryDst,
|
|
DWARFRegisters: X86DWARFRegisters,
|
|
}
|